Learning Resources

Abstract: With the frequency and intensity of extreme weather events continuing to increase across the country, the need for resilience planning is more critical than ever before.

Numerous campuses across the California State University (CSU) system have direct experience with wildfires, extended drought, floods, extreme heat, public safety power shutoffs, hurricanes, and sea level rise. The CSU is currently working toward increasing resilience in response to catastrophic events through systemwide technical guidance resources on building and infrastructure design and retrofit. These extreme conditions further prompted the need for vulnerability assessments systemwide and coordinated climate resilience planning and investment activities.

Using the activities of CSU climate action and adaptation planning, 2022-2023 SCUP Fellow Tamara Wallace’s SCUP Fellows project sought to achieve three (3) primary objectives:

1. Review planning documents and policies that consider climate resiliency governance versus climate resiliency implementation.


2. Identify key stakeholders to develop a primer for addressing and incorporating campus-community implementation priorities.


3. Raise awareness with the broader higher education planning community to collect feedback and share model practices.

Abstract: “Will innovative environments like a smart building expand STEM education and reach more underrepresented groups? If technology can support remote work, then why haven’t the previous proofs of concept become fully adopted?” The author pursued these questions through her SCUP Fellows research, exploring the hypothesis that user-centered design would better address STEM student needs and could increase the likelihood of a broader adoption of remote labs. Although the COVID-19 pandemic required a hard pivot in her research plan, she was able to leverage the world's new focus on remote activities and work with students to design a prototype mobile application for a digital, interactive twin of a STEM building on campus.

Abstract: Space is not neutral; we perceive physical environments differently based on our backgrounds, experiences, and abilities. Every student brings a unique perspective to campus, and therefore every campus will have individual needs.

This research project collected a body of evidence around student preferences for welcoming and inclusive physical campus environments, sourced from engagements with more than two dozen institutions and more than 200 students. The author used these findings to develop a playbook to guide institutions and design teams through key strategies and possible metrics relative to DEI to use when planning, designing, and assessing physical campus space. The playbook serves as a conversation starter—a way to get planners, designers, and institutional stakeholders to the table and move the needle toward a more supportive physical environment that embodies the strategic values of DEI.

Abstract: This report was produced by the researcher awarded the M. Perry Chapman Prize for 2016–2017.

This research evaluates the role the campus built environment plays in student retention and graduation. The relationship between objective and perceived measures of the physical campus and student academic performance was examined using the California State University (CSU) campuses as the sample. The results show that both objective and perceived measures are significantly associated with academic performance and provide higher education institutions with insight regarding the role of the physical campus in enhancing student retention and graduation rates.

Abstract: This report was produced by the research team awarded the M. Perry Chapman Prize for 2013–2014.

As the recipients of the 2012–2013 Perry Chapman Prize show in their report, Research on Learning Design: Present State, Future Directions, the study of learning spaces in tertiary education is an emerging field in which the key issues are to “establish a body of knowledge that will guide the design, remodel, and use of new and existing learning spaces” and “evaluate these learning spaces by developing research to determine whether and how they fulfill their purposes.”

This report aims to produce complementary work by addressing the larger context of the university campus and students’ perceptions and experiences of their learning at the tertiary level more generally. Rather than starting from environmental psychology or behaviorist models, it explores the value of applying contemporary approaches from the social sciences to learning space design, an approach increasingly being developed. This, however, is not just a matter of applying a different research method; it also concerns the underlying problem of how we conceptualize relationships between material space and its occupation both generally and specifically in relationship to learning. In fact, over the last few years, theorists across many disciplines that deal with material space—such as geography, anthropology, and science and technology studies—have been critically examining precisely this issue of rethinking how to conceptualize the interrelationships between space, people, artifacts, and activities.